HackerTrans
TopNewTrendsCommentsPastAskShowJobs

cybertax

no profile record

Submissions

[untitled]

1 points·by cybertax·vor 25 Tagen·0 comments

[untitled]

1 points·by cybertax·vor 26 Tagen·0 comments

[untitled]

1 points·by cybertax·vor 30 Tagen·0 comments

[untitled]

1 points·by cybertax·letzten Monat·0 comments

[untitled]

1 points·by cybertax·letzten Monat·0 comments

[untitled]

1 points·by cybertax·letzten Monat·0 comments

[untitled]

1 points·by cybertax·letzten Monat·0 comments

[untitled]

1 points·by cybertax·letzten Monat·0 comments

[untitled]

1 points·by cybertax·letzten Monat·0 comments

[untitled]

1 points·by cybertax·letzten Monat·0 comments

[untitled]

1 points·by cybertax·letzten Monat·0 comments

[untitled]

1 points·by cybertax·vor 2 Monaten·0 comments

Quantum-floor compression: Achieving GPT-4 capability at 1/120th the model size [pdf]

oroboroslab.github.io
2 points·by cybertax·vor 6 Monaten·2 comments

comments

cybertax
·vor 25 Tagen·discuss
[flagged]
cybertax
·vor 30 Tagen·discuss
[dead]
cybertax
·letzten Monat·discuss
[dead]
cybertax
·letzten Monat·discuss
[flagged]
cybertax
·letzten Monat·discuss
[flagged]
cybertax
·letzten Monat·discuss
[dead]
cybertax
·letzten Monat·discuss
[dead]
cybertax
·letzten Monat·discuss
[flagged]
cybertax
·vor 2 Monaten·discuss
[dead]
cybertax
·vor 6 Monaten·discuss
We've been experimenting with quantum-inspired compression algorithms and have achieved what traditional scaling laws say is impossible: GPT-4 level performance from a 30GB model (paper releasing tomorrow).

Our "quantum-floor" encoding seems to bypass traditional parameter-efficiency tradeoffs. Early tests show 86%+ MMLU from a model that should only manage 40% at that size.

Question: Has anyone else seen compression breakthroughs that defy scaling laws? Or are we measuring something wrong?